Post Doctoral Researcher in Advanced Materials and Interfaces for Metal-Sulfur Batteries

Job Information

Organisation/Company: University of Limerick
Department: Department of Physics
Research Field: Physics » Applied physics
Researcher Profile: Recognised Researcher (R2)
Positions: Postdoc Positions
Country: Ireland
Application Deadline: 28 Jul 2025 - 12:00 (Europe/Dublin)
Type of Contract: Temporary
Job Status: Full-time
Offer Starting Date: 29 Sep 2025
Is the job funded through the EU Research Framework Programme?: Not funded by a EU programme
Is the Job related to staff position within a Research Infrastructure?: No

Offer Description

We invite applications for a postdoctoral researcher to join an ambitious, multidisciplinary project focused on advancing the performance of metal–sulfur batteries (lithium–sulfur, magnesium–sulfur, sodium–sulfur) through innovations in materials synthesis, interfacial engineering, and operando structural characterisation. This position offers a unique opportunity to contribute to the development of next-generation energy storage systems by tackling fundamental and practical challenges across multiple research areas. The successful candidate will work on three main pillars of the project: Synthesis of Functional Battery Materials: The candidate will synthesise advanced carbon-based sulfur host materials with tailored porosity, electrical conductivity, and surface chemistry. The role also includes the synthesis of transition metal-based electrocatalysts to improve sulfur utilization. Precise Material Coatings for Interface Engineering: Techniques such as atomic layer deposition (ALD), physical vapor deposition (PVD), and sol-gel methods will be utilsed to deposit material coatings, such as metal oxides, nitrides, or hybrid materials, onto cathodes, metal anodes, and separators. These coatings will be designed to enhance interfacial stability, suppress polysulfide shuttling, and extend cycling life. Advanced Electrochemical and Structural Characterisation of Battery Materials: Electrochemical testing of metal–sulfur battery materials will include cyclic voltammetry and galvanostatic cycling. Advanced operando techniques, including X-ray diffraction and Raman spectroscopy will be employed to gain real-time insights into structural and chemical changes in battery materials during operation. Large datasets generated from electrochemical and structural characterisation will be analysed using data processing software, such as Python and MATLAB. This role will involve close collaboration with partners across electrochemistry, materials science, and large-scale research facilities. The postdoc will also contribute to mentoring students, preparing publications, and presenting results at major conferences.

We invite applications for a postdoctoral researcher to join an ambitious, multidisciplinary project focused on advancing the performance of metal–sulfur batteries (lithium–sulfur, magnesium–sulfur, sodium–sulfur) through innovations in materials synthesis, interfacial engineering, and operando structural characterisation. This position offers a unique opportunity to contribute to the development of next-generation energy storage systems by tackling fundamental and practical challenges across multiple research areas.

The successful candidate will work on three main pillars of the project:

Synthesis of Functional Battery Materials: The candidate will synthesise advanced carbon-based sulfur host materials with tailored porosity, electrical conductivity, and surface chemistry. The role also includes the synthesis of transition metal-based electrocatalysts to improve sulfur utilization.
Precise Material Coatings for Interface Engineering: Techniques such as atomic layer deposition (ALD), physical vapor deposition (PVD), and sol-gel methods will be utilised to deposit material coatings, such as metal oxides, nitrides, or hybrid materials, onto cathodes, metal anodes, and separators. These coatings will be designed to enhance interfacial stability, suppress polysulfide shuttling, and extend cycling life.
Advanced Electrochemical and Structural Characterisation of Battery Materials: Electrochemical testing of metal–sulfur battery materials will include cyclic voltammetry and galvanostatic cycling. Advanced operando techniques, including X-ray diffraction and Raman spectroscopy will be employed to gain real-time insights into structural and chemical changes in battery materials during operation. Large datasets generated from electrochemical and structural characterisation will be analysed using data processing software, such as Python and MATLAB.

This role will involve close collaboration with partners across electrochemistry, materials science, and large-scale research facilities. The postdoc will also contribute to mentoring students, preparing publications, and presenting results at major conferences.

Apply here: https://my.corehr.com/pls/esbsheulrecruit/erq_search_version_4.start_se…

Job ID: 077688

Where to apply

Website: https://my.corehr.com/pls/esbsheulrecruit/erq_search_package.search_form?p_comp…

Requirements

Research Field: Physics
Education Level: PhD or equivalent

Research Field: Chemistry
Education Level: PhD or equivalent

Research Field: Engineering
Education Level: PhD or equivalent

Skills/Qualifications

A doctoral degree (level 10NFQ) in physics, chemistry, materials science or a related discipline.

Specific Requirements

Essential Criteria:

A doctoral degree (level 10NFQ) in physics, chemistry, materials science or a related discipline.
Appointees will have at least 1 year of Post Doctoral Research experience.
The applicant must be the first author on a minimum of 2 peer reviewed publications that emanated from their PhD research and these publications must be relevant for this project. Publications submitted to preprint repositories or manuscripts currently under review will not be accepted for this purpose.
Proven research experience in the development of lithium–sulfur batteries.
Proven experience in the synthesis and structural characterisation of functional materials for metal–sulfur batteries, in particular carbon nanomaterials.
Hands-on expertise in material coatings, particularly using techniques such as atomic layer deposition (ALD), physical vapor deposition (PVD), or sol-gel methods.
Strong background in electrochemical testing of metal–sulfur battery materials, including cyclic voltammetry and galvanostatic cycling.
Demonstrated ability to use data processing software, such as Python and MATLAB, for the analysis of large and complex datasets.
Excellent communication and interpersonal skills.

Desirable Criteria:

Experience with operando or in-situ structural characterisation methods for the analysis of metal–sulfur battery materials.
Experience with small angle x-ray scattering (SAXS) for the structural characterisation of porous materials and nanostructures.
Proven ability to design and model battery cell components and experimental setups using CAD software such as SolidWorks or FreeCAD.
Experience working with academic and industry collaborators.
Strong presentation skills.
Research project management experience.
Experience mentoring junior staff.
Experience of working with large multi-disciplined teams.

Languages: ENGLISH
Level: Excellent

Research Field: Physics » Applied physicsChemistry » Physical chemistryTechnology » Energy technology
Years of Research Experience: 4 - 10

Internal Application form(s) needed

JD Post Doctoral Researcher (Level 1) in Advanced Materials and Interfaces for Metal Sulfur Batteries.pdf

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Additional Information

Benefits

Benefits at the University of Limerick

Employees of the University of Limerick receive a variety of benefits including:

Supported professional development under the Researcher Development Programme and Staff Training Programmes.
Membership of the Public Sector Single Public Service Pension Scheme.
Membership of the Income Continuance Plan
The opportunity to join the University’s Additional Life Cover plan.
Coverage in the UL Sick Leave Scheme (available under “S” on the HR A-Z)
Flexible working practices such as the Shorter Working Year Scheme.
Preferential rates for health insurance.
Employee wellness is a priority and a number of initiatives take place each year for the benefit of UL employees, see more at Be Well at UL.
Preferential rates for access to the UL Arena swimming pool and fitness centre.

Equal opportunities at the University of Limerick

The University of Limerick is an equal opportunities employer, is committed to selection on merit and to the developing and maintaining a positive working environment, in which all employees are treated with dignity & respect. In pursuit of this, it is the policy of the University to provide all employees with an environment, which is free from bullying, harassment or victimisation of any form. You can read more about UL’s commitment to equality diversity and inclusion here.

Researcher Development

The University of Limerick Researcher Development Programme gives researchers an opportunity to develop and enhance the skills, knowledge and attributes necessary to complete their research and longer term career ambitions.

Additional Links:

Link to Human Resources Research Staff Webpage: Research Staff | UL - University of Limerick

Link to the University of Limerick’s Strategic Plan UL@50 - UL Strategic Plan 2019-2024

Link to website for new staff New To UL - Staff Roadmap

Pension Abatement

If an appointee has previously been employed in the Civil or Public Service and that appointee is entitled to or in receipt of a pension from the Civil or Public Service or where a Civil/Public Service pension comes into payment during the appointee’s re-employment that pension will be subject to abatement in accordance with Section 52 of the Public Service Pensions (Single Scheme and other Provisions) Act 2012.
Please note: In applying for this position you are acknowledging that you understand that the abatement provisions, where relevant, will apply. It is not envisaged that the employing Department/Office/Body will support an application for an abatement waiver in respect of appointments to this position.

Eligibility criteria

A doctoral degree (level 10NFQ) in physics, chemistry, materials science or a related discipline.
Appointees will have at least 1 year of Post Doctoral Research experience.

Website for additional job details: https://my.corehr.com/pls/esbsheulrecruit/erq_search_package.search_form?p_comp…

Work Location(s)

Number of offers available: 1
Company/Institute: University of Limerick
Country: Ireland
State/Province: Munster
City: Limerick
Postal Code: V94 T9PX
Street: University of Limerick
Geofield

Job offer